DE112018004314T5 - BULK READING OF RADIO FREQUENCY IDENTIFICATION LABELS - Google Patents

Abstract

Method and device for the mass detection of RFID tags in a presentation area, e.g. a point of sale device. Bulk quantities of RFID tags can be recognized according to an entry into the point of sale device, including entry via a symbol barcode scanner, a conveyor belt, a scale and / or via an RF antenna, which is operated at a first power level. After the mass quantity of RFID tags has been recognized, the RF antenna is temporarily operated at a second, higher power level in order to increase the mass recognition accuracy of the RFID tags. "Edge" labels can be recognized by the RF antenna when operated at the higher power levels that are in the area but are not presented on the point of sale device. Edge labels can be filtered based on the RF characterization of the presentation area, including driving the RF antenna outside of the presentation process and / or filtering RFID tags that are recognized across multiple presentation processes.

Description

BACKGROUND OF THE INVENTION

In retail environments, the point of sale areas must identify the products that are for sale and a customer wants to buy. Point of sale devices that recognize RFID labels on the articles presented by a customer in the point of sale area may not be able to recognize all individual articles if many articles are presented at once (mass presentation). Increasing the performance of an RF antenna located near the point of sale area can increase the range of the RF antenna and mistakenly detect RFID tags that are not part of the items presented by the customer for purchase . These “edge” labels can be nearby labels on store shelves or at another customer's location near the point of sale.

Accordingly, there is a need for bulk reading of RFID tags at a point of sale area that avoids false RFID tag detections.

Figure list

• 1 ist ein Schema eines Systems mit einem Verkaufspunkt-Bereich für das Massenlesen von RFID-Etiketten gemäß einigen Ausführungsformen.
• 2 ist ein Diagramm der RF-Antennenleistung gegenüber der Zeit und ein Diagramm einer Anzahl erkannter RFID-Etiketten gegenüber der Zeit für ein System mit einem Verkaufspunkt-Bereich für das Massenlesen von RFID-Etiketten gemäß einigen Ausführungsformen.
• 3 ist ein weiteres Diagramm der RF-Antennenleistung gegenüber der Zeit und ein Diagramm einer Anzahl erkannter RFID-Etiketten gegenüber der Zeit für ein System mit einem Verkaufspunkt-Bereich für das Massenlesen von RFID-Etiketten gemäß einigen Ausführungsformen.
• 4 ist ein Blockdiagramm eines Systems mit einem Verkaufspunkt-Bereich für das Massenlesen von RFID-Etiketten gemäß einigen Ausführungsformen.
• 5 ist eine schematische Darstellung eines Systems mit einem Verkaufspunkt-Bereich für das Massenlesen von RFID-Etiketten von Artikeln mit der gleichen Produktkennung gemäß einigen Ausführungsformen.
• 6 ist ein Flussdiagramm eines Verfahrens für das Massenerkennen von Radiofrequenzidentifikations (RFID) -Etiketten gemäß einigen Ausführungsformen.
• 7 ist ein Flussdiagramm eines Verfahrens zum Charakterisieren des Umfelds eines Verkaufspunkt-Bereichs gemäß einigen Ausführungsformen.

The accompanying figures, in which like reference numbers refer to identical or functionally similar elements in the individual views, together with the detailed description below, are incorporated in and form a part of the specification and serve to implement embodiments of the concepts as claimed To further illustrate and explain various principles and advantages of these embodiments.

• 1 10 is a schematic of a system with a point of sale area for bulk reading RFID tags according to some embodiments.
• 2nd 10 is a graph of RF antenna performance versus time and a graph of a number of detected RFID tags versus time for a system with a point of sale area for bulk reading RFID tags according to some embodiments.
• 3rd 10 is another graph of RF antenna performance versus time and a graph of a number of detected RFID tags versus time for a system with a point of sale area for bulk reading RFID tags according to some embodiments.
• 4th 10 is a block diagram of a system with a point of sale area for bulk reading RFID tags, according to some embodiments.
• 5 10 is a schematic illustration of a system with a point of sale area for bulk reading RFID tags from articles with the same product identifier, in accordance with some embodiments.
• 6 FIG. 10 is a flow diagram of a method for mass recognition of radio frequency identification (RFID) tags according to some embodiments.
• 7 10 is a flowchart of a method for characterizing the environment of a point of sale area according to some embodiments.

Those skilled in the art will recognize that the elements in the figures are illustrated for simplicity and clarity and have not necessarily been drawn to scale. For example, the dimensions of some of the elements in the figures may be exaggerated compared to other elements to improve understanding of the embodiments of the present invention.

The device and method components have been illustrated by conventional symbols in the drawings, if any, that show only those specific details that are relevant to understanding the embodiments of the present invention in order not to obscure the disclosure by details that would be apparent to those skilled in the art Use the description herein, are readily apparent.

DETAILED DESCRIPTION OF THE INVENTION

The implementations described herein include a method of mass recognizing radio frequency identification (RFID) tags, including driving a radio frequency (RF) antenna at a first power level, the RF antenna being positioned in an environment of a point of sale device the presence of one or more physical items at the point of sale device, each of the one or more physical items being associated with an RFID tag, determining whether the one or more physical items meet a bulk item condition, driving the RF antenna with a second one Performance level when the one or more physical items meet the bulk item condition, the second performance level being higher than the first performance level, recognizing one or more RFID tags contained in the one or more physical items are embedded by the RF antenna operating according to the second power level and reducing the power level of the RF antenna to the first power level after a period of time for mass item detection.

1 is a schematic of a system with a point of sale area 100 for bulk reading RFID tags according to some embodiments. In some implementations, the point of sale area 100 positioned in a checkout area near a retail sales area where customers can buy items for sale 110 able to buy. The point of sale area 100 can be a point of sale device 102 include a counter, cash register, point of sale counter, conveyor belt and / or other components for processing sales transactions of the items to be purchased by the customer 110 may include. In other implementations, the system includes 100 a presentation area for mass reading RFID tags 102 that is not a point of sale area. Instead, the presentation area 102 include an area in which a person or an item presents items to be inventoryed, counted, entered into an account and / or logged (e.g. a return counter, a manufacturing environment, an assembly line, the dispensing of a machine, a warehouse manager, etc.).

In the implementations are on the sales items 110 Symbol barcodes printed on a terminal 114 the point of sale device 102 can be scanned manually. The symbol barcodes can encode information about the product, for example, without limitation, a UPC code for the product. The point of sale device 102 For a specific customer, information that is encoded on symbol barcodes can be placed on sales items during a checkout time 110 record.

To the sales items 110 include the RFID tags embedded in or on it 112 . The RFID labels 112 can from an RF antenna 106 be detected near the point of sale device 102 in the sales point area 100 is arranged. The RFID labels 112 can provide information about sales items 110 included, e.g. B. without limitation UPC code, manufacturer information, sales information, information about the content of the sales items 110 etc.

The information in the RFID labels 112 can with the point of sale system 102 and / or other components of the system 100 (including not in 1 components shown) with an RF antenna 106 that work, are read and recognized according to a first performance level. The size of the first power level of the RF antenna 106 may vary depending on the area of the point of sale 100 to get voted. If the point of sale area 100 near other points of sale, such as B. several adjacent check-out lanes, there is a risk that RFID tags are recognized that are presented for sale at other points of sale and not in the point of sale area 100 to get presented. In the vicinity of the sales point area 100 there may also be persistent RFID tags 112 give (also referred to here as "edge" or "surrounding" RFID labels), such as B. RFID labels 112 that appear on items for sale, posted items, or other items with RFID tags that are not for sale in the point of sale area 100 Tobe offered. If the first power level of the RF antenna 106 is too high, there may be persistent RFID tags 112 recognized. Is the first power level of the RF antenna 106 on the other hand, too low, then less than all RFID tags 112 that are in the point of sale area 100 offered for sale by the RF antenna 106 Be "missed". In other words, some RFID tags 112 Items that are offered for sale may not be scanned, resulting in an incorrect count of items for sale 110 leads, especially if a large number of items are for sale 110 is offered at the same time (e.g. a mass item condition).

The point of sale device 102 (or other components of the system that are not in 1 ) can improve the accuracy of scanning RFID tags during a bulk item condition by using the RF antenna 106 temporarily operated with a second, higher power level, the RF antenna 108 is shown. The RF antennas 106 and 108 do not need to be separate antennas, but can be a single antenna which, in normal operation, has the first power level ( 106 ) and at the second, higher performance level ( 108 ) is operated when a mass item condition is detected. In an example implementation, the RF antenna is used 1W Power operated at the second, higher power level and between 0.1-0.25 W at the first power level. Other performance levels may vary depending on the content of the area surrounding the point of sale 100 to get voted.

The main advantage of increasing performance only when a mass read event is detected is that the unwanted label reading window only opens for a short time when the high performance is most needed. There is always a chance to read this label because RF reflectors such as people and cars move nearby and are constructive and cause deconstructive effects of RF. It is very rare for the RF to be constructed just right to cause an edge label to be read. So we want to be very selective when we open the window.

Increasing the power level of the RF antenna 106 to the second performance level ( 108 ) reduces the risk of an RFID tag 112 in one article 110 that is in the point of sale area 100 offered for purchase, "missing" because an RF antenna 106 operating at a higher power level are more likely to successfully recognize an RFID tag in an area than the same RF antenna operating at a lower power level. Driving the RF antenna at the second, higher power level can be viewed as a "spike" to the number of RFID tags that are near the point of sale device 100 can be successfully read temporarily to increase (eg items that are on the point of sale device 102 be offered for sale).

A period of time can be selected for the length of the peak performance to the higher performance level. In an example implementation, the "peak" lasts 100-400ms. In another example implementation, the "spike" lasts up to 1 second. Depending on the characteristics of the area around the point of sale 100 other periods can also be selected. The longer the RF antenna 106 is spiked, the greater the likelihood that the RFID tags 112 that at the point of sale device 102 offered for sale, successfully recognized, but also the greater the likelihood of surrounding or edge RFID tags 112 that are not for sale can be recognized, especially if the RFID tags 112 in or near the point of sale 100 are. For a shorter tip, it is less likely that wrong RFID tags 112 be recognized, but it is more likely that an RFID label 112 on an item on the point of sale device 102 offered for sale is overlooked.

A peak in power of the RF antenna can be triggered by the discovery that the device at the point of sale 102 presented items meet a bulk item condition. The bulk item condition can be based on the total number of items recognized, a total number of items with the same product identifier (e.g. items with the same UPC code), a rate at which items are recognized, etc. In some implementations, a terminal includes 114 at the point of sale device 102 a symbol barcode scanner, for example a hand-held scanner. If an item at the terminal 114 manually scanned, it can be recorded in a log. The log can be examined to determine a number of items that have been scanned to determine if the items meet a bulk item condition. In other implementations, the RF antenna 106 , which operates at the first, lower power level, the RFID tags 112 Detect to determine if a bulk item condition exists.

2nd is a diagram 200 RF antenna power versus time and a graph 202 a number of recognized RFID tags over time for a system with a point of sale area for mass reading RFID tags according to some embodiments. The x-axis of the diagrams 200 and 202 are measured in seconds and represent a section of an item sales session in a sales point area. The y-axis of the diagram 200 indicates the power with which an RF antenna is operated in the vicinity of the point of sale device. The y-axis of the chart 202 shows the number of newly recognized RFID tags for each 1-second interval during the item sales session, represented by vertical bars. Although an RFID tag can be recognized by the RF antenna over a period of time during the article sales session of an article, the diagram shows 202 only the period of time in which the RFID label was recognized for the first time.

The diagram 202 Figure 14 shows a bulk item condition detected by the RF antenna operating at a first, lower power level during the item sales session until the bulk item condition is detected at about 9.0 seconds. The RF antenna is operated with the shown low power of 0.2W and recognizes two RFID tags close to the time T ₁ . At the time T ₂ the RF antenna operated with 0.2W detects a larger number of articles and again a second later. In the in 2nd The example shown fulfills the number of times up to now T ₃ item recognized a bulk item condition. In other implementations, the bulk item condition can be met based on more or fewer items than at the time T ₃ in the example of 2nd were recognized.

The RF antenna power increases over time T ₃ around and briefly reaches 1.0W. At the time T ₃ the number of recognized RFID tags increases accordingly. With those around the time T ₃ recognized RFID tags can be RFID tags that would not have been recognized at the first, lower performance level. In some implementations, some or all of the labels will appear at the time of the RF antenna power peak were not associated with the point of sale area in which the bulk item condition was met (e.g. border labels or surrounding labels). Such edge RFID tags can be filtered from the items that are considered to be presented at the point of sale, as discussed herein. At time T ₄ , the RF antenna has returned to the low power level and no new RFID tags are recognized on the point of sale device, which indicates the end of the article sales session.

3rd is another diagram 300 RF antenna power versus time and a graph 302 a number of recognized RFID tags over time for a system with a point of sale area for mass reading RFID tags according to some embodiments. The x-axis of the diagrams 300 and 302 are measured in seconds and represent a section of an item sales session in a sales point area. The y-axis of the diagram 300 indicates the power with which an RF antenna is operated in the vicinity of the point of sale device. The y-axis of the chart 302 shows the number of newly recognized RFID tags for each 1 second segment internally during the article sales session, represented by vertical bars. Although an RFID tag can be recognized by the RF antenna over a continuous period of time during the article sales session, the diagram shows 302 only the period in which the RFID tag was recognized for the first time.

The diagram 302 shows a bulk item condition that is captured by a terminal on the point of sale device, eg, manually using a hand-held symbol barcode scanner, during the item sale session. New articles are added approximately every second, starting at a point in time T ₁ , recognized. Around that time T ₂ Enough items were recognized around to meet a bulk item condition at the point of sale device. If the bulk item condition around the time T ₂ is detected around, the power level of the RF antenna temporarily increases. The diagram 302 shows additional items currently being recognized by the handheld scanner, but no items currently being detected by the RF antenna around the peak power T ₂ or be recognized at other times. At the time T ₃ no more items are scanned and the item sales session ends.

4th is a block diagram of a system 400 with a point of sale area 402 for mass reading RFID tags according to some embodiments. The point of sale area 402 includes components for recognizing the mass item condition at the point of sale 402 and for accurate reading of RFID tags associated with the individual articles that make up the group of bulk articles.

Several components of the point of sale area can recognize whether a mass item condition is fulfilled. One component for recognizing whether a bulk item condition is met is a scanner. The scanner can be installed in a terminal of a point of sale device located in a point of sale area. The scanner can be operated manually to scan symbol barcodes on items that are in the point of sale area during a sales session 402 are presented, and to transfer the extracted data to a bulk article detector. If the bulk item detector receives more than a threshold number of items from the scanner (e.g. items that were scanned for a single invoice) during a sales session, a bulk item condition is detected. The point of sale area 402 can contain a conveyor sensor to detect a mass item condition. The conveyor sensor can transmit data from a weight sensor embedded therein to the bulk article detector. The weight exceeds that at the point of sale area 402 If articles are presented with a limit value, a mass article condition is recognized. One or more RF antennas 404 and RFID tag readers can also recognize the bulk item condition. The RF antennas 404 can be operated at a first power level by the control circuit, and the RFID tag reader can detect the bulk item condition if more than a limit number of RFID tags from the RF antenna 404 is recognized at the first performance level.

Once a bulk item condition has been detected, the controller can determine the power level of one or more of the RF antennas 404 increase for a period of time. During the one or more RF antennas 404 operated at a higher power level, additional RFID tags are likely to be recognized that would not have been recognized if the RF antennas 404 be operated at the lower power level. The RFID tag reader can record the data contained in the additional RFID tags and / or the data via a transmitter to other components of the system, such as the server 406 , transfer.

In some implementations, components of the point of sale area 402 configured to the RFID tag environment of the point of sale area 402 to characterize. It can happen that it is within the range of the RFID antennas 404 Persistent or edge RFID tags, when operated at the second, higher performance level, are not part of the sale at the point of sale device items are offered (e.g. RFID tags on items on sale, items posted, etc.). The control circuit can use the RF antennas 404 Control periodically at the higher performance level during the environmental characterization periods if no mass article conditions are recognized and / or if no articles in the point of sale area 402 be offered for sale. The Rand RFID tags will appear in more than one of the environmental characterization periods, indicating that the labels should not be associated with customer purchases.

Once recognized, edge RFID tags can be sent to the server 406 broadcast or locally at the point of sale 402 get saved. In some implementations, an article recorder stores on the server 406 a list of border labels around the point of sale area 402 . If edge labels around the point of sale area 402 can be detected while the RF antennas 402 operated with the second, higher performance level, these edge labels can then be filtered out from a list of RFID labels, which are considered for a transaction in the point of sale area 402 presents apply.

The article recorder on the server 406 can also take over other functions of RFID bulk reading. If items in the point of sale area 402 the article recorder can be presented via the transmitter from the point of sale area 402 receive an identification of the items presented. The identification of the presented articles can come from a scanner or another component on the point of sale device. In some implementations are identifications of items that cover the point of sale 402 go through from a point of sale monitor on the server 406 recognized. These items can be compared to a different identification of items that are at the point of sale than from the RF antennas 404 presented recognized, regardless of whether they are operated at a high or lower power level. So there is a check of the items by the RF antennas as they were recorded when passing through the point of sale device. Items covering the point of sale area 402 passed through, but not recorded and put on an invoice by the scanner, can be recorded by the RF antennas and recorded by the article recorder as being pushed through.

Other components of the server 406 are a control circuit, processor, and memory / applications that are configured to analyze the information received from other components of the system and to drive the RF antenna at the various power levels.

5 is a schematic representation of a system 500 with a point of sale area 502 for mass reading RFID tags with the same product identifier according to some embodiments. In some implementations, a bulk item condition is met if more than one item with the same product identifier (e.g. the same UPC code) is part of the same transaction in the point of sale area 502 is presented (e.g. if a customer wants to buy ten of the same item). For example, an employee with a manual scanner can only scan one of the articles with the same product ID and enter a remaining number of products manually (eg using a keyboard on the terminal). In this way, when the customer presents ten identical items, only one is scanned and the remaining nine are recorded using the keyboard.

If a bulk item condition based on multiple items with the same product identifier is met, the performance of the RF antenna can be increased to read the RFID tags associated with the unscanned items. In some implementations, performance is from a first level (represented by physical range 514 ) to a second level (represented by the physical range 518 ) increased to identify RFID tags associated with the unscanned items. In some implementations, the level of performance may be related to the physical range 518 leads to being too big and a potential for reading RFID labels that are not in the point of sale area 502 be presented, create such. B. RFID labels in the sales point areas 504 and 518 and / or on the product shelves 510 and 512 . As such, a third level of performance can be achieved through physical range 516 is represented, can be replaced in order to read the RFID labels of the articles with the same product identifications (eg the same UPC codes) as the scanned article.

6 is a flowchart of a method 600 for mass recognition of radio frequency identification (RFID) labels according to some embodiments. A detection process 602 detects on a point of sale device the presence of one or more physical items presented for a transaction. The detection process can be carried out by a scanner for the manual scanning of symbol barcodes at a terminal of a point of sale device, a conveyor belt activation sensor and / or weight sensor, an RF antenna etc. or any combination thereof. An investigative step 604 determines whether the one or more physical items meet a bulk item condition. A bulk item condition can include a number of items that exceed a threshold Total weight of the items exceeding a threshold, total selling price exceeding a threshold, etc. In some implementations, a bulk item condition is met when more than a limit number of items have the same product identifier (e.g., the same UPC code).

A driver company 606 drives an RF antenna with a mass detection power level. The mass detection can be a second power level that is higher than a first power level at which the RF antenna was operated before the mass article condition was recognized. A detection operation 608 detects one or more RFID tags associated with one or more physical items through the RF antenna operating at the mass recognition performance level. The detection operation can be performed by a bulk article detector or a control circuit coupled to the RF antenna. A reduced operation 610 reduces the power level of the RF antenna to a power level that is lower than the mass detection power level. In some implementations, the collapse process 610 performed after no unique items are recognized on the point of sale device. In other implementations, the collapse process 610 carried out after a time-out period. In other implementations, the collapse process 610 executed when a signal is received that a sales session has ended.

7 is a flowchart of a method 700 to characterize the environment of a point of sale area according to some embodiments. A driving operation 702 drives an RF antenna at a first power level. A detection process 704 detects on a point of sale device the presence of one or more physical items that are presented on the point of sale device and have the same product identifier (eg the same UPC code). The detection process 704 can be performed by a scanner for manually scanning symbol bar codes at a terminal of a point of sale device, a conveyor belt activation sensor and / or weight sensor, an RF antenna, etc., or any combination thereof. In some implementations, the detection process 704 by manually scanning one or more items (e.g., manually scanning a symbol barcode on the item (s)) and then entering a number of remaining items into the point of sale device via a keyboard or other input means. For example, if a customer presents ten identical articles for sale at a point of sale device, one of the articles can be scanned and the remaining articles can be billed by entering the number nine on a keyboard at the terminal.

A driver company 706 drives the RF antenna with a second power level, the second power level being higher than the first. A detection operation 708 recognizes a large number of RFID tags with the same product identifier due to the RF antenna operating according to the second performance level. The detection operation 708 may include a filtering sub-process in which all RFID tags that do not contain the same product identifier are filtered.

A comparison process 710 compares the bulk items detected at the point of sale device in the detection process with the plurality of RFID labels with the same product identifier in the recognition operation 708 . The comparison process 710 can detect if items are not through the manual scan / input process related to the detection operation 708 and the detection process 704 were considered for some or all of the items presented for the transaction were not considered. A recording process 712 records a discrepancy if a number of the plurality of bulk items differs from a number of the plurality of RFID labels with the same product identifier. In some implementations, the recording process draws 712 on whether during the detection process 704 compared to the recognition operation 708 more or less elements were recognized. The detection process 704 can include a filter to remove any edge or persistent RFID tags that are in the detection operation 708 recognized and not offered for sale at the point of sale.

Specific embodiments have been described in the foregoing description. However, one of ordinary skill in the art appreciates that various modifications and changes can be made without departing from the scope of the invention as defined in the claims below. Accordingly, the description and figures are to be regarded in an illustrative rather than a restrictive sense, and all such modifications are intended to be included within the scope of the present teachings.

The benefits, advantages, solutions to problems and all elements that can lead to the emergence or enhancement of a benefit, an advantage, or a solution are not to be understood as critical, necessary or essential features or elements in some or all of the claims. The invention is merely appended by the Claims defined, including any changes made during the pending application of this application and all equivalents of the claims granted.

In addition, relational terms such as first and second, upper and lower, and the like may be used in this document only to distinguish one entity or action from another entity or action, without necessarily establishing an actual such relationship or order between such entities or actions require or imply. The terms "includes," "comprehensive," "has," "have," "has," "exhibit," "contains," "contain," or any other variation thereof, is intended to cover a non-exclusive inclusion such that a Process, method, product or device that comprises, has, contains, contains, not only has these elements, but can also have other elements that are not expressly listed or are inherent in such a process, method, product or device are. An element that is preceded by "comprises ... a", "has ... a", "has ... a" or "contains ... a" precludes the existence of additional identical elements in the process without further restrictions, does not exclude the method, the product or the device which comprises, has or contains the element. The terms "a" and "one" are defined as one or more, unless expressly stated otherwise herein. The terms "substantially", "generally", "approximately", "about" or any other version thereof are defined to be understood by those skilled in the art, and in a non-limiting embodiment, the term is defined as within 10%, in another embodiment as within 5%, in another embodiment as within 1% and in another embodiment as within 0.5%. The term "coupled" as used herein is defined as connected, but not necessarily direct and not necessarily mechanical. A device or a structure that is “designed” in a certain way is at least designed in this way, but can also be designed in ways that are not listed.

It is understood that some embodiments of one or more generic or specialized processors (or "processing devices") such as microprocessors, digital signal processors, custom processors, and field programmable gate arrays (FPGAs) and one-time stored program instructions (including both software and Firmware) that control the one or more processors to implement, in conjunction with certain non-processor circuits, some, most, or all of the functions of the method and / or apparatus described herein. Alternatively, some or all of the functions may be implemented by a state machine that has no stored program instructions, or in one or more application specific integrated circuits (ASICs) in which each function or some combinations of certain functions are implemented as user-defined logic. Of course, a combination of the two approaches can be used.

In addition, an embodiment may be implemented as a computer readable storage medium that stores computer readable code to program a computer (including, for example, a processor) to perform a method as described and claimed herein. Examples of such computer readable storage media include a hard disk, a CD-ROM, an optical storage device, a magnetic storage device, a ROM (read only memory), a PROM (programmable read only memory), an EPROM (erasable programmable read only) Memory), an EEPROM (electrically erasable programmable read-only memory) and a flash memory, but are not limited to this. Furthermore, regardless of possible significant efforts and many design choices motivated by available time, current technology, and economic considerations, it is believed that one of ordinary skill in the art would readily be able to experiment with such software instructions and programs and ICs with minimal experimentation generate when guided by the concepts and principles disclosed herein.

The summary of the disclosure is provided to enable the reader to quickly ascertain the essence of the technical disclosure. It is provided with the understanding that it will not be used to interpret or limit the scope or meaning of the claims. Furthermore, it can be seen from the foregoing detailed description that various features are summarized in different embodiments for the purpose of streamlining the disclosure. This type of disclosure is not to be construed to reflect the intent that the claimed embodiments require more features than expressly stated in each claim. Rather, as the following claims show, the inventive subject matter lies in less than all the features of a single disclosed embodiment. Thus, the following claims are hereby incorporated into the detailed description, with each claim standing on its own as a separately claimed subject matter.

Claims (27)

A method for mass detection of radio frequency identification (RFID) labels, the method comprising: Driving a radio frequency (RF) antenna at a first power level, the RF antenna being positioned in a presentation environment; Detecting, by the RF antenna, the presence of one or more physical items, each of the one or more physical items being associated with an RFID tag; Determining whether the one or more physical items meet a bulk item condition; Driving the RF antenna at a second power level when the one or more physical items meet the bulk item condition, the second power level being higher than the first power level; Detection of one or more RFID tags embedded in the one or more physical articles by the RF antenna, which operates in accordance with the second performance level, and Reduce the power level of the RF antenna to the first power level after a mass detection period. Procedure according to Claim 1 wherein the detection process comprises detecting the physical presence of the one or more articles with a barcode scanner in the presentation environment. Procedure according to Claim 1 wherein the detection process includes detecting the physical presence of the one or more articles with the RF antenna operating at the first power level. Procedure according to Claim 1 , further comprising: repeatedly recognizing a persistent radio frequency identification (RFID) label while the radio frequency (RF) antenna is operating at the second power level; and filtering the persistent RFID tag from the RFID tags associated with the one or more physical items. Procedure according to Claim 1 , wherein the mass recognition period expires after no new RFID tags are recognized by the recognition process during a time-out period. Procedure according to Claim 1 , wherein the mass detection period expires after a predetermined period. Procedure according to Claim 1 , further comprehensive: signaling for manual separation of the physical articles if the mass article condition is fulfilled. Radio frequency identification (RFID) label mass recognition system, the system comprising: an RF antenna located near a point of sale area; a bulk item detector configured to determine whether physical items in the point of sale area meet a bulk item condition; a control circuit configured to drive the RF antenna at a first power level when physical items in the point of sale region do not meet a bulk item condition and to drive the radio frequency antenna during a bulk item condition period at a second power level when physical items at the point of sale -Range a bulk item condition where the first performance level is lower than the second performance level; and an RFID tag reader that is coupled to the RF antenna and configured to recognize RFID tags. System according to Claim 8 , where the bulk item condition period expires while the bulk item condition is still satisfied. System according to Claim 8 , wherein the control circuit is configured to drive the RF antenna. System according to Claim 8 , RFID tags, which are repeatedly recognized by the RFID tag reader while the radio frequency antenna is operated at the second power level, are filtered out of the RFID tags that are assigned to the point of sale area. System according to Claim 8 , further comprising: a symbol barcode scanner configured to detect physical items in the point of sale area, the output from the symbol barcode scanner being used by the control circuitry to determine whether the physical items are in the point of sale -Area the bulk item condition. System according to Claim 8 , further comprising: a conveyor belt sensor configured to signal to the control circuit whether an article conveyor belt is active in the point of sale area, and wherein the output of the conveyor belt sensor is used by the control circuit to determine whether physical articles are in the point of sale -Area the bulk item condition. System according to Claim 8 , further comprising: a scale configured to signal the control circuit when the weight of the physical items in the point of sale area meets a weight mass condition. System according to Claim 8 , further comprising: a camera configured to visually recognize a bulk item condition and to signal the bulk item condition to the control circuit. A system for characterizing the radio frequency identification (RFID) environment of a point of sale device, the system comprising: a radio frequency RF antenna located near a point of sale area and having a first range when operating at a first power level and a second range when operating at a second power level, the first power level is less than the second power level and the first range is less than the second range; an RFID tag environment characterizer configured to detect persistent physical articles with RFID tags embedded therein in an area of the point of sale area, the persistent physical articles outside the first range of the RF antenna and within the range of the second Area of the RF antenna are arranged; and a control circuit configured to drive the RF antenna according to at least the first power level and the second power level, the controller further configured to filter persistent physical items from the physical items during bulk item capture transactions at the point of sale area be recognized. System according to Claim 16 , wherein the control circuit drives the RF antenna periodically at the second power level. System according to Claim 16 , wherein the control circuit controls the RF antenna at the second power level based on a minimum rate of article detection in the point of sale area. System according to Claim 16 wherein the RFID tag environment characterizer recognizes an RFID tag of a particular persistent physical article if the persistent RFID tag environment characterizer recognizes the RFID tag of the particular persistent physical article for several periods during which the RF antenna on the second Performance level is operated. System according to Claim 16 wherein the RFID tag environment characterizer recognizes an RFID tag of a particular persistent physical item if the RFID tag environment characterizer recognizes the RFID tag of the particular persistent physical item more than once during a persistence period. A method for mass detection of a radio frequency identification (RFID) label at a point of sale area, the method comprising: Driving a radio frequency (RF) antenna at a first power level, wherein the RF antenna is positioned in the vicinity of a point of sale device; Detecting, at the point of sale device, the presence of a plurality of bulk items, each of the plurality of bulk items having the same product identifier and each of the plurality of bulk items being associated with an (RFID) label, each RFID tag containing the same product identifier; Driving the RF antenna at a second power level, the second power level being higher than the first power level; Detecting a plurality of RFID tags, which contain the same product identifier, by the RF antenna, which is operated in accordance with the second power level; Comparing the bulk items that the point of sale device detects in the detection process with the plurality of RFID tags that contain the same product identifier in the capture operation; and Record a discrepancy when a number of the plurality of bulk items differs from a number of the plurality of RFID tags with the same product identifier. Procedure according to Claim 21 , wherein the recording process comprises signaling to an operator of the point-of-sale device that fewer than all mass articles detected in the detection process were recognized by the RF antenna, which is operated in accordance with the second power level. Procedure according to Claim 21 , wherein the recording process excludes RFID edge tags with the same product identifier that were detected in more than one detection operation over a period of time. Procedure according to Claim 23 , wherein the RFID edge tags are detected by the RF antenna, which are operated at a third power level. Procedure according to Claim 21 , where the same product identifier contains a UPC code. Procedure according to Claim 21 , the detection process the manual scanning at least one of the plurality of bulk items on the point of sale device. Procedure according to Claim 26 wherein the detection process further comprises manually entering a number of the plurality of bulk items on the point of sale device.

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